KR100760213B1 - Earth anchor bracket having saw-toothed and curved part - Google Patents

Abstract

An earth anchor bracket having curved parts with saw teeth is provided to preclude a pressure unit from being moved, and to increase internal pressure performance. An earth anchor bracket(100) comprises two side plates(110), a connecting member(120), and a pressure unit. The two side plates formed with curved parts(114) having saw teeth(115) are placed to be opposed. The connecting member connects the both side plates. The pressure unit has protrusions(134) tooth-engaged with the saw teeth of both side plates, and a through part(132). The pressure unit includes a cylinder member inserted between the both side plates, and a placing part formed outside the cylinder member.

Description

Earth anchor bracket having saw-toothed and curved part}

1 is a view schematically showing the earth anchor method

Figure 2 is a perspective view showing one type of conventional earth anchor bracket

3A and 3B are perspective and exploded perspective views showing different types of conventional earth anchor brackets, respectively.

Figure 4 is a cross-sectional view of the installation of the bracket shown in Figure 3a

5 is a perspective view of the earth anchor bracket according to the first embodiment of the present invention;

Figure 6 is a side view showing the installation of the earth anchor bracket according to the first embodiment of the present invention

7 and 8 are a perspective view and an exploded perspective view of the earth anchor bracket according to the second embodiment of the present invention, respectively

9 is a bottom perspective view showing a state in which a ring part is formed in a cylinder member of a second embodiment of the present invention;

10a and 10b is a view showing a state of moving the cylinder member along the curved portion of the side plate by using the cylinder member formed with a ring portion

11 is a view showing an installation of the earth anchor bracket according to the second embodiment of the present invention.

12 is a perspective view of the earth anchor bracket with the cylinder member coupled to the acupressure plate

* Description of the symbols for the main parts of the drawings *

100: earth anchor bracket 110: side plate

111, 112: first and second inclined sides 114: curved portions

115: tooth 116: coupling hole

120: connecting member 130: acupressure plate

132: through part 134: locking jaw

140: cylinder member 142: mounting portion

144: locking jaw 146: ring portion

150: support members 160a and 160b: first and second base plates

162: locking step 170: fixing member

172: coupling hole 180: bolt

182: nut 190: reinforcing material

The present invention relates to an earth anchor bracket for supporting an earth anchor inserted into the ground to prevent the collapse of the soft ground, and specifically, the teeth on the curved portion of the side plate to prevent the flow of the pressure plate. It is related with the formed earth anchor bracket.

In general, the earth anchor method is widely used to prevent the earth wall from collapsing toward the excavation hole when forming the excavation hole of the steep slope in the excavation work or the foundation work of the civil construction site. The ground anchor method is briefly described as follows.

First, as shown in FIG. 1, a thumb pile using an H beam or the like is put in the ground, and after excavating a designated ground, an earth plate is inserted between each thumb pile to form the earth wall 1.

Subsequently, perforation is performed from the earth wall 1 at a predetermined inclination angle, and the anchor body 3 is fixed to the perforation part 2 and then grouted by a length corresponding to the fixing length Lb to fix the anchor body 3. Let's do it. In general, the anchor body (3) is set between the edge of the bottom surface (6) of the excavation hole and the ground according to the design criteria according to the soil according to the design of the decay line (dotted line in the drawing) and then the free field ( La) and the anchorage (Lb) is divided and usually primary grouting is carried out for the anchorage (Lb).

When the curing of the grouting is completed, a tensile force is applied to the free field La of the anchor body 3 to fix it to the bracket 10 installed on the horizontal beam 4 of the earth wall 1, for which the freedom of the anchor body 3 is achieved. After passing through the through part formed in the bracket 10, the sheet La is fixed using a cone 5 having a diameter larger than the through part.

After fixing the anchor body 3 to the bracket 10, the second grouting is performed on the remaining part of the perforated part 2, thereby completing the construction, through which the tensile force of the anchor body 3 corresponds to the earth pressure. The earth wall 1 is supported.

The present invention relates to a bracket for fixing by applying a tensile force to the free field (La) of the anchor body (3) in such an earth anchor method.

FIG. 2 is a perspective view showing an example of a bracket 10 that has been used in the related art. Two side plates 11 having substantially triangular shapes installed in parallel with each other, and a horizontal gibber on the same inclined sides of both side plates 11 Iii) a pressure plate 12 having a through portion 12a through which the side plates 11 are connected to each other and the anchor body 3 is drawn out at the center thereof.

However, since the tensile force of the anchor body 3 is distributed through the acupressure plate 12 and both side plates 11, the bracket 10 is bent or the side plate 11 is deformed in the actual construction process. Cases occur frequently.

In addition, as shown in FIG. 1, the bracket 10 is supported by the horizontal beam 4, so that both side plates of the bracket 10 may be welded to the horizontal beam 4 in order to fix the bracket 10. Therefore, it takes a long time to install and dismantle the bracket 10, and there is a problem in that damage of the horizontal beam (4) can not be avoided due to welding.

Recently, many new types of brackets have been released to solve these problems. For example, FIGS. 3A and 3B show perspective and exploded perspective views of the bracket 50 disclosed through Patent No. 441619.

The bracket 50 includes a main support member 20, an auxiliary support member 40, a guide member 30 fixed between the main support member 20 and the auxiliary support member 40.

Here, the main support member 20 is fixed to the upper side of the two side plate 21, the same inclined side (21a) of both side plate 21 by acupressure plate 23 having a through portion 24, spaced a predetermined interval And base plates 22a and 22b fixed to the lower side of the side plate 21.

In addition, the auxiliary support member 40 is bent at a predetermined angle in the center is fixed between both side plates 21 of the main support member 20, the guide member 30 is substantially cylindrical, one end of the main support member ( 20 is fixed to the acupressure plate 23 and the other end is fixed to the auxiliary support member (40).

The bracket 50 can withstand greater tensile force than the bracket of FIG. 2 because the auxiliary support member 40 and the guide member 30 disperse the tensile force of the anchor body to the main support member 20, FIG. As shown in the installation cross-sectional view of 4, even though the actual tension direction of the anchor body 3 and the reference tension angle of the bracket 50 do not coincide, the free length of the anchor body 3 is drawn out through the cylindrical guide member 30. Therefore, there is an effect of preventing the interference with the through portion 24 or the horizontal beam 4 of the acupressure plate to some extent.

However, even in the case of the bracket 50, if the actual tensile direction of the anchor body 3 and the reference tensile angle of the bracket 50 do not match, as shown in FIG. 4, the anchor member 3 is severely bent to guide members ( 30) and can not be drawn through the through.

When the anchor body 3 is bent as described above, a force in a direction different from the tensile direction is applied to the anchor body 3, and as a result, the tensile force applied to the anchor body 3 is inevitably dispersed. Therefore, in order to apply the tensile force to the anchor body (3) in accordance with the design criteria, in consideration of the dispersion of the tensile force to apply a larger tensile force than the normal case, which means that the bracket (50) must have a larger bearing force, so that the bracket (50) It will act as a limiting factor in reducing or miniaturizing the weight.

Recently, in order to solve this problem, an earth anchor bracket for forming an arcuate curved portion on the inclined sides of both side plates and moving the pressure plate along the curved portion has been proposed.

If the curved portion is formed on the earth anchor bracket, the pressure plate can be moved according to the installation angle of the anchor body, so that the tension direction of the anchor body and the pressure plate can be maintained vertically without bending the anchor body.

However, in order to achieve such an effect, a perforation formed in the earth wall for inserting the anchor body should be accurately drilled in the center of curvature of the arcuate curved portion of the earth anchor bracket.

However, in actual construction sites, since the perforations are often formed out of the reference position, it is difficult to vertically maintain the tension direction and the acupressure plate of the anchor even when the acupressure plate is moved along the arcuate curve.

When the tension direction of the anchor body and the acupressure plate cannot be maintained vertically, a horizontal force is applied to the acupressure plate in addition to the vertical direction, so that the acupressure plate moves along the curved portion of the earth anchor bracket. There is a problem that deformation occurs.

The present invention has been made to solve the above-mentioned problems and has the following object.

First, even if the tension direction of the anchor body is different from the reference tensile angle is to be able to properly respond with only one bracket.

Second, to provide a bracket with a stronger support than the prior art.

Third, even if the interval of the horizontal beam for supporting the bracket is different, it is possible to respond to this, and to facilitate the installation of the bracket on the horizontal beam.

Fourth, to provide an earth anchor bracket that can prevent the shiatsu plate from flowing out of a specified position.

The present invention, in order to achieve the above object, a bracket supported by a horizontal beam coupled to the side of the earth wall to fix the free field of the anchor body is inserted into the perforations formed in the earth wall according to the earth anchor (earth anchor) method A side plate formed with curved portions having teeth and opposed to each other; A connection member for connecting and fixing the both side plates; It is supported by the two side plates, and provides an earth anchor bracket including a jaw engaging with the teeth of the both side plates and a pressure-bearing means having a through portion for withdrawing the free field of the anchor body.

The acupressure means, the cylinder member having the through portion is installed so that the lower end is inserted between the two side plates; Is coupled to the outer side of the cylinder member is mounted to the curved portion of the both side plates, it may include a mounting portion having a locking jaw to engage with the teeth in the lower portion.

At this time, the inner wall of the side plate for supporting the lower end of the cylinder member, the upper surface may be coupled to the support member having the same curvature as the curved portion, the lower portion of the support member and the inner wall of the side plate to increase the pressure resistance performance An auxiliary support member may be further installed.

In addition, a ring portion may be formed at the lower end of the cylinder member so as to hook the cylinder member to the support member coupled to the inner wall of the side plate.

On the other hand, the acupressure means is provided with a through portion, the acupressure plate is mounted on the curved portion of both side plates, the engaging jaw is formed at both ends; An auxiliary acupressure plate coupled to a lower portion of the acupressure plate and communicating with the through part, wherein the auxiliary acupressure plate is coupled to a lower end of the cylinder member to improve pressure resistance performance; It may further include a support member coupled to the inner walls of both side plates to support both ends of the auxiliary acupressure plate, the upper surface having the same curvature as the curved portion.

And a reinforcement having a first plate coupled to the outer wall of the side plate and a second plate bent in a vertical direction at the top of the first plate, wherein the second plate of the reinforcement is the same as the curved portion of the side plate. Can have curvature.

Hereinafter, with reference to the drawings will be described a preferred embodiment of the present invention.

First embodiment

5 and 6 are side views showing a perspective view and an installation of the earth anchor bracket 100 according to the first embodiment of the present invention, respectively.

The earth anchor bracket 100 according to the first embodiment of the present invention includes two side plates 110 installed in parallel with each other, and upper end portions of both side plates 110 to support a tensile force applied to a free field of the anchor body. The acupressure plate 130 is rolled up.

Since both side plates 110 should be able to maintain parallel to each other even when a tensile force is applied, a connection member 120 is firmly connected between the both side plates 110.

The side plate 110 has a substantially triangular shape, an arcuate curved portion 114 is formed on the first inclined side 111 to which the shiatsu plate 130 is coupled, and the second inclined side 112 on the opposite side is a straight line. Or curved.

The acupressure plate 130 has a through portion 132 through which the free field of the anchor body is drawn out. In addition, it is a plate having the same curvature as the curved portion 114 because it is coupled to the curved portion 114 of the first inclined side 111 of the side plate 110.

In the present invention, in order to prevent the movement of the acupressure plate 130, the tooth 115 is formed on the arcuate curved portion 114 of the side plate first inclined side 111, the lower portion of the acupressure plate 130 The engaging jaw 134 engaging with the 115 is formed to protrude.

Therefore, when the engaging jaw 134 of the acupressure plate 130 is engaged with the teeth 115 of the first inclined side 111, even if the tension direction of the anchor body slightly deviates from the reference tensile angle, the movement of the acupressure plate 130 is Is prevented.

At this time, it is not necessary that all of the first inclined sides 111 in each side plate 110 is formed as a curved portion 114, at least the portion that the acupressure plate 130 is coupled is preferably processed to a constant curvature.

Therefore, it is preferable that the virtual diagram connecting the upper end of each tooth 115 formed in the curved part 114 of the 1st inclination edge 111 is located in the same circumference.

Although the shape of each tooth 115 is not particularly limited, it should have a shape that is engaged with the locking jaw 134 of the acupressure plate, and at least the tension force of the anchor body in a state of engaging with the locking jaw 134 of the acupressure plate 130. It must be strong enough to withstand this.

In addition, the teeth 115 of the curved portion 114 serves to determine the position of the acupressure plate 130, so that the spacing of each tooth is preferably uniform, and in the embodiment of the present invention, each tooth 115 is curved. Along the portion 114 is formed to be spaced apart by an angle of about 2 degrees to 3 degrees.

On the other hand, since the earth anchor bracket 100 is installed on the horizontal beam 4 of the normal H beam spaced up and down, both side plates (2) in order to effectively distribute the tensile force applied to both side plates 110 through the horizontal beam (4) Rather than directly contacting the horizontal beam of the lower end 110, as shown in FIGS. 5 and 6 by combining the first and second base plates (160a, 160b) spaced apart from each other at the lower end of both side plates 110, It is preferable to bring the first and second base plates 160a and 160b into close contact with the horizontal beams 4.

The first and second base plates 160a and 160b are substantially spaced apart by the installation interval of the horizontal beams 4.

The upper end of the first or second base plate (160a, 160b) is formed with a locking end 162 for mounting the ground anchor bracket 100 to the horizontal beam (4). Therefore, it is not necessary to weld the base plate to the horizontal beam separately because the ground anchor bracket 100 can be easily installed by simply hanging the locking end 162 on the horizontal beam.

In the exemplary embodiment of the present invention, the upper end of the second base plate 160b positioned at the bottom is bent to form the locking end 162, but the locking end may be formed at the upper end of the first base plate 160a. Do.

In order to fix the earth anchor bracket 100 according to the embodiment of the present invention to the horizontal beam 4 as shown in FIG. 6, first, the locking end 162 of the second base plate 160b is mounted on the horizontal beam 4. The first and second base plates 160a and 160b are brought into close contact with the horizontal beams 4 above and below, respectively.

Subsequently, the acupressure plate 130 is coupled to a proper position of the curved portion 114 of the first inclined side by using the locking jaw 134, and the free field of the anchor body is passed through the through portion 132 of the acupressure plate 130. After drawing, apply tensile force.

At this time, if the perforated portion formed in the earth wall is out of position, the installation angle of the acupressure plate 130 is out of the perpendicular to the tension direction of the anchor body, and thus the acupressure plate 130 in the tangential direction of the first inclined side 111 In this embodiment of the present invention, the force is driven, and the pressure plate 130 is prevented from flowing due to the teeth 115 and the locking jaw 134.

Meanwhile, when the interval between the first and second base plates 160a and 160b is fixed, at least one of the first and second base plates 160a and 160b may not be coped with when the distance between the horizontal beams is different. It is preferred to fix in a detachable manner with respect to 110).

In the first embodiment of the present invention, as shown in FIGS. 5 and 6, the first base plate 160a is fixed to both side plates 110 by welding or the like, and has a second base having a locking end 162. The plate 160b is detachably fixed to the side plate 110.

To this end, the fixing members 170 having one or more coupling holes 172 on one surface of the second base plate 160b are installed to face each other, and near the ends of both side plates 110 on which the second inclined sides 112 are formed. The plurality of coupling holes 116 are formed in the longitudinal direction of the side plate 110 to be spaced apart by a predetermined interval.

Therefore, when the bolt 18 passes through the coupling hole 172 of the fixing member 170 and the coupling hole 116 of the side plate 110, the second base plate 160b is detachably coupled to both side plates 110. do.

Alternatively, both the first and second base plates 160a and 160b may be detachably coupled to the side plate 110.

If it is necessary to adjust the interval of the first and second base plates (160a, 160b) in accordance with the interval of the horizontal beam (4) through the disassembly of the bolt 180 and then recombined through a suitable coupling hole 116 The spacing can be adjusted in such a way that the earth anchor bracket 100 according to the embodiment of the present invention can cope with various installation intervals even without using various types of brackets having different lengths.

The coupling holes 116 of the side plate 110 may be formed in a row, but in order to make the spacing between the first and second base plates 160a and 160b finer, two or more rows of coupling holes 116 may be formed. It is preferable to make these zigzag forms mutually. In this case, the coupling holes 172 formed in the fixing member 170 may also be formed in two or more rows corresponding to each row of the coupling holes 116.

Second embodiment

7 and 8 are a perspective view and an exploded perspective view of the earth anchor bracket 100 according to the second embodiment of the present invention, respectively.

Earth anchor bracket 100 according to the second embodiment of the present invention, as in the first embodiment has a curved portion 114, each of which has a tooth 115 is formed, the two side plates 110 facing each other, both side plates ( The first and second base plates 160a and 160b which are spaced apart from both ends of the bottom side 110 and detachably coupled to both side plates 110 are included.

In the second embodiment of the present invention, in order to greatly improve the pressure resistance performance of the earth anchor bracket 100, a reinforcing member 190 is provided on the outside of both side plates 110, and the anchor body is free between the side plates 110. It is characterized in that the cylinder member 140 for drawing the bowel is installed.

At this time, the mounting portion 142 which is mounted on the curved portion 114 of the first inclined side 111 of both side plates 110 on the outer side of the cylinder member 140 is formed to protrude, the lower portion of the mounting portion 142 The engaging jaw 144 is formed to mesh with the teeth 115 of the side plate.

Since the mounting portion 142 formed on the outer side of the cylinder member 140 is a part directly contacting the curved portion 114 of the first inclined side 111 of both side plates 110 at the time of installation, the pressure plate 130 of the first embodiment. Like), tension force applied to the anchor body is directly received.

Therefore, in order to be disposed in the direction perpendicular to the tensile direction of the anchor body, the lower surface of the mounting portion 142 preferably has the same curvature as the curved portion 114.

On the other hand, in order to further improve the pressure resistance performance of the earth anchor bracket 100, the support member 150 for supporting the lower end of the cylinder member 140 on the inner wall of the both side plates 110 is installed.

Since the upper surface of the support member 150 is to support the lower end of the cylinder member 140 moving along the curved surface of the curved portion 114 of the side plate 110 it is preferable to have the same curvature as the curved portion 114. Do.

The support member 150 may be coupled to one side plate each in the form of two bands, and an integral plate having a through portion for drawing the anchor body at the center thereof, and both side ends may be respectively coupled to the inner walls of both side plates 110. It may be.

Therefore, the tension force of the anchor body applied to the mounting portion 142 of the cylinder member 140 is distributed to both side plates 110, while also being transferred to the support member 150 by the lower end of the cylinder member 140, both side plates ( 110), the overall pressure resistance is greatly improved.

At this time, the upper end is fixed to the lower surface of the support member 150, the lower end to support the support member 150 using an auxiliary support member (not shown) is fixed to the inner wall of the side plate 110 to further improve the pressure resistance performance Can be.

Meanwhile, in the second embodiment of the present invention, the reinforcing member 190 is installed on the outer wall of each side plate 110 as a method for improving the pressure resistance performance.

The reinforcing member 190 has a 'b' shaped cross section and a second plate vertically bent laterally from the top of the first plate 191 and the first plate 191 fixed to the outer wall of the side plate by welding or the like. Plate 192. The second plate 192 preferably has a curvature similar to that of the curved portion 114 of the first inclined side 111 of the side plate 110.

The reason why the reinforcement member 190 of the above-described shape is used without simply adding a strip-like plate such as the first plate 191 is that the pressure resistance performance is remarkably improved as compared with the case where the strip-shaped plate is attached. .

This serves to support the contraction force applied to the side plate 110 of the first plate 191 of the reinforcing material 190, the second plate 192 to prevent the phenomenon that the side plate 110 is bent to the outside It is analyzed.

On the other hand, since the cylinder member 140 is not fixed to the side plate 110, the cylinder member 140 must be sandwiched between both side plates 110 after the side plate 110 is fixed to the horizontal beams.

However, when the cylinder member 140 and the side plate 110 are separated in this way, the construction speed may be lowered by this. In the second embodiment of the present invention, as shown in FIG. 9, the lower end of the cylinder member 140 is shown. It is proposed to connect the cylinder portion 140 to the side plate 110 by connecting the ring portion 146 and the hook portion 146 to the support member 150.

The ring portion 146 is formed only at one end of the cylinder member 140, which is to allow the catching jaw 144 to be lifted to the top of the tooth 115 when the position of the cylinder member 140 is changed. That is, as shown in FIGS. 10A and 10B, when the other end without the hook portion 146 is lifted up, the cylinder member 140 may be moved even when the hook portion 146 is caught by the support member 150.

11 is a view showing the earth anchor bracket 100 is installed in accordance with a second embodiment of the present invention, the free length of the anchor body (3) drawn through the through portion of the cylinder member 140 tensioner 200 It shows a fixed state by.

Meanwhile, although the mounting part 142 formed on the outer side of the cylinder member 140 is coupled with the curved portion 114 of the side plate 110, the cylinder member 140 may have a different form.

For example, as shown in FIG. 12, the cylinder member 140 communicating with the through part 132 may be coupled to the lower portion of the acupressure plate 130.

Also in this case, similar to the first embodiment, the curved portion 114 having the teeth 115 is formed on the first inclined side 111 of the side plate 110, and the teeth 115 are formed under the acupressure plate 130. The engaging jaw 134 is formed to engage with.

And coupled to the lower pressure plate 130 having the same curvature as the upper pressure plate 130 on the lower end of the cylinder member 140, the inner wall of both side plates 110 support for supporting the auxiliary pressure plate 148 The member 150 is installed.

At this time, the upper surface of the support member 150 should have the same curvature as the curved portion 114 of the first inclined side 111.

According to the present invention, since a curved portion having teeth is formed on the side plate of the earth anchor bracket, even if the position of the perforation portion for insertion of the anchor body is slightly out of position, the movement of the acupressure means supporting the tensile force of the anchor body can be prevented. Can be.

In addition, since the pressure resistance performance is greatly enhanced as compared with the related art, the earth anchor bracket can be reduced in weight and size in comparison with the conventional tensile strength.

Claims (13)

A bracket supported by a horizontal beam coupled to a side surface of an earth wall to fix a free field of an anchor body inserted into a hole formed in an earth wall according to an earth anchor method. Two side plates each having a curved portion having teeth and opposed to each other; A connection member for connecting and fixing the both side plates; Acupressure means supported by the both side plates, the holding jaw engaging with the teeth of the both side plates and a through portion for drawing out a free field of the anchor body; Earth Anchor Bracket Including The method of claim 1, The acupressure means, A cylinder member having the through part and installed at a lower end thereof to be inserted between the side plates; Is formed on the outer side of the cylinder member is mounted to the curved portion of the both side plates, the mounting portion having a engaging jaw to engage with the teeth in the lower portion; Earth anchor bracket comprising a The method of claim 2, Earth anchor bracket, characterized in that for supporting the lower end of the cylinder member on the inner wall of the side plate, a support member having an upper surface having the same curvature as the curved portion is coupled. The method of claim 3, Earth anchor bracket, characterized in that the auxiliary support member for connecting the lower portion of the support member and the inner wall of the side plate in order to increase the pressure resistance performance The method of claim 3, Earth anchor bracket, characterized in that for forming the ring portion on the lower end of the cylinder member to hang the cylinder member to the support member coupled to the inner wall of the side plate The method of claim 1, The acupressure means, An acupressure plate having the through part, mounted on the curved parts of both side plates, and the engaging jaw formed at both ends thereof; A cylinder member coupled to a lower portion of the acupressure plate and communicating with the through part; An auxiliary acupressure plate coupled laterally from the lower end of the cylinder member; A support member coupled to inner walls of both side plates to support both ends of the auxiliary acupressure plate, and having an upper surface having the same curvature as the curved portion; Earth anchor bracket comprising a The method according to any one of claims 1 to 6, A reinforcement having a first plate coupled to an outer wall of the side plate and a second plate bent vertically at an upper end of the first plate, wherein the top and the second plate of the first plate are curved of the side plate. Earth anchor bracket having the same curvature as The method of claim 1, The first base plate and the second base plate are coupled to the lower end of the side plate to be spaced apart from each other in order to distribute the tensile force of the anchor to the horizontal beam, Both side plates have a plurality of coupling holes arranged in the longitudinal direction, the fixing member having one or more coupling holes is coupled to the upper surface of the first base plate or the second base plate, By selecting the coupling holes of the fixing member and the plurality of coupling holes of the side plate and fastening bolts, the distance between the first base plate and the second base plate can be adjusted. One end of the first base plate or the second base plate is a ground anchor bracket characterized in that the engaging end for mounting on the horizontal beam is formed delete delete delete delete delete

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